CN115098920A - Intelligent electric power management and control method, device and system based on mobile visualization - Google Patents

Abstract

The invention discloses an intelligent electric power management and control method, device and system based on mobile visualization, and relates to the technical field of electric power management and control. The invention comprises the following steps: the method comprises the steps that a video monitoring device collects power thread data and makes an actual topographic map of a power field; importing the topographic map into a BIM three-dimensional model building module to generate a three-dimensional power grid model; the GIS power grid management and control center displays a three-dimensional power grid model, and establishes power grid progress, operating personnel and routing inspection routes for power grid construction through the three-dimensional power grid model; and the operating personnel works according to the engineering information and uploads the functional engineering progress through the intelligent terminal. According to the invention, the three-dimensional power grid model is manufactured by acquiring the actual power network information through the video, and the function requirements and the working reality of each level are checked, so that the operating personnel can work according to the engineering information, and the function engineering progress is uploaded through the intelligent terminal and mapped to the three-dimensional power grid model for visual display, thereby improving the flexibility of the power management and control system and the operation and maintenance efficiency of the operating personnel.

Description

Intelligent power management and control method, device and system based on mobile visualization

Technical Field

The invention belongs to the technical field of electric power management and control, and particularly relates to an intelligent electric power management and control method, device and system based on mobile visualization.

Background

With the rapid development of power systems, the reliability requirements on various links of power grids such as power generation, power transformation, power distribution, power transmission, power utilization and the like are higher and higher, and when the power systems operate, the power grids are dispatched, commanded, monitored and managed, and a large amount of power grid operation information needs to be received, stored, processed and displayed. With the continuous development of information technology and the continuous improvement of user requirements, the existing power management and control system cannot meet the requirements of users and power system operation and maintenance personnel in multiple aspects of flexibility, system expandability, reliability, convenience, comprehensiveness and the like.

At present, in order to effectively improve the visual and intelligent level of on-site safety control and continuously improve the quality and effect of safety management, the Internet plus and big data analysis technology are fully utilized to develop a mobile visual safety control system, and information such as a power grid, equipment, videos and the like is accessed in real time, organically integrates with systems such as scheduling, production, marketing, capital construction and the like, establishes an all-dimensional and multi-dimensional safety control platform which is combined with man-machine monitoring and is buckled from top to bottom, from inside to outside and in a ring, when realizing a large amount of on-the-spot of personnel control, constantly perfecting and extending the platform function, forming intelligent interactive safety management systems such as "visualization + safe theory construction", "visualization + safe bearing capacity analysis", "visualization + engineering project management" and "visualization + emergency repair command" gradually, helping hand safety management level promotes comprehensively is the present technological problem that awaits solution urgently.

Disclosure of Invention

The invention aims to provide an intelligent electric power control method, device and system based on mobile visualization, which can be used for visually displaying the current electric power control and the inspection work through a mobile visualization intelligent electric power control system, and solves the problems that the existing electric power control system is insufficient in flexibility and cannot meet the work requirements of users and electric power operation and maintenance personnel.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to an intelligent electric power management and control method based on mobile visualization, which comprises the following steps:

step S1: dividing the BIM three-dimensional model into a plurality of power grid components according to an actual power network, and inputting information of component names, working units, working time, operating personnel and operating contents into the power grid components;

step S2: the method comprises the steps that a video monitoring device collects power thread data, in a GIS three-dimensional topographic map, on-site topographic data are subjected to spatial encryption calculation through Smart3D software to generate point cloud data, and an actual topographic map of a power field is manufactured through the point cloud data;

step S3: importing the topographic map into a BIM three-dimensional model building module to be combined, and generating a three-dimensional power grid model;

step S4: the GIS power grid management and control center displays a three-dimensional power grid model, and establishes power grid progress, operating personnel and routing inspection routes for power grid construction through the three-dimensional power grid model;

step S5: the operating personnel work according to the engineering information and upload the functional engineering progress through the intelligent terminal;

step S6: and the manager accesses the GIS power grid management and control center through the manager terminal to know the project progress condition and adjusts the required operators, routing inspection routes and the project progress of the project.

As a preferable technical solution, in step S2, the on-line topographic data is subjected to space-three encryption calculation through Smart3D software to generate point cloud data, an actual topographic map of the construction site is made through the point cloud data, and the actual topographic map is combined with the GIS three-dimensional topographic map data to generate a three-dimensional engineering model.

As a preferable technical solution, in the step S4, the manager receives the engineering progress customization and the routing inspection progress information in the GIS grid management and control center.

As a preferred technical solution, in step S6, the GIS grid management and control center records a work track, loads the work track into map information of a grid GIS patrol line area, displays a line passed by a worker on the map in real time, performs supervision and inspection on the patrol quality of the line by comparing the line path, the patrol track and the patrol duration, and determines whether the patrol period meets the requirement according to the recorded patrol date.

As a preferred technical scheme, the GIS grid management and control center acquires channel dangerous source point information according to a dangerous source video, records the channel dangerous source point information into a system database, displays all channel dangerous source points on a grid GIS system map of the GIS grid management and control center in a grading manner, configures corresponding clickable entries in corresponding channel dangerous source points, and can check the risk level, management and control measures, information of staff performing personnel and specific situations of a site of the dangerous source points; dynamically grasping the current state of a danger source point by using a photographing uploading function of a visual mobile terminal; and the GIS power grid management and control center informs corresponding power grid management and control sub-centers and/or operation and maintenance with visual mobile terminals to set on-duty personnel and mobile individual soldiers at high-risk management and control points.

The invention relates to an intelligent electric power control device based on mobile visualization, which comprises a GIS power grid control center and a plurality of power grid control subcenter;

the GIS power grid management and control center is arranged in a main center area; the power grid management and control sub-centers are respectively arranged in each sub-area;

the power grid control sub-centers are respectively in communication connection with a GIS power grid control center;

the GIS power grid management and control center comprises a safety management and control module, a desktop management application module and a visual mobile terminal application module; the desktop management application module and the visual mobile terminal application module are respectively in communication connection with the safety control module; the visual mobile terminal application module acquires field real-time information, automatically records the time when a worker enters and leaves the field and the effective working time, and transmits the real-time information and the automatically recorded information back to the safety control module in real time; the visual mobile terminal application module is connected with the safety control module and/or the GIS power grid control center in a bidirectional communication mode; the safety management and control module is configured to analyze and process the returned information; the desktop management application module is configured to refer to the information analyzed and processed by the security management and control module.

As a preferred technical scheme, the GIS power grid management and control center is configured to display multiple images, synchronously monitors a plurality of power grid management and control sub-centers in real time, and displays information transmitted back to the GIS power grid management and control center by the plurality of power grid management and control sub-centers in real time;

the GIS power grid management and control center and/or the power grid management and control sub-center are/is further provided with an integrated video platform and a three-dimensional power grid display platform, wherein the integrated video platform comprises a transformer substation fixed video, a capital construction project video, a power transmission channel hazard source video, a mobile high-definition video and a mobile individual soldier video; the three-dimensional power grid display platform comprises a BIM three-dimensional model, a GIS three-dimensional topographic map, Smart3D software and a three-dimensional engineering model.

As a preferred technical scheme, the field real-time information comprises personnel positioning, work tracks, shooting, navigation and personnel on duty information, and the visual mobile terminal application module is also configured with an identity recognition function to check the information and qualification of the operating personnel; the identity recognition function comprises a biological recognition mode or a two-dimensional code recognition mode, the biological recognition method comprises face recognition, fingerprint recognition or iris recognition, and the two-dimensional code recognition mode comprises scanning a two-dimensional code identity through a mobile terminal; the visual mobile terminal is configured to display recent photos, identification numbers, units and operation qualifications according to the identity identification information.

As a preferred technical solution, the desktop management application module is further configured to retrieve various account information in real time, the information analyzed and processed by the security management and control module includes the on-site real-time information returned by the visual mobile terminal, and the substation fixing video includes performing whole-process monitoring on the operation behavior in the substation covered by the video; the capital construction project video comprises a video module for comprehensively mastering the safety management condition of an important capital construction project operation site; the power transmission channel dangerous source video comprises a dangerous source point real-time image video passed by a power transmission channel; the mobile high-definition video comprises a monitoring picture of the whole process whole elements of a key operation area and a key monitoring point by using a mobile video terminal for fixed point; the mobile individual video comprises on-site emergency repair images acquired by mobile individual personnel carried by power distribution emergency repair personnel.

The invention relates to an intelligent electric power management and control system based on mobile visualization, which comprises: a memory, and a processor coupled to the memory, the processor configured to perform the intelligent power management method of any of claims 1-5 based on instructions stored in the memory.

The invention has the following beneficial effects:

according to the invention, a three-dimensional power grid model is manufactured by video acquisition of actual power network information, functional requirements and working practice at all levels are checked, and a safety management and control system is arranged and perfected step by step, so that an operator works according to engineering information, functional engineering progress is uploaded through an intelligent terminal and is mapped to the three-dimensional power grid model for visual display, and the flexibility of the power management and control system and the operation and maintenance efficiency of the operator are improved.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a flowchart of an intelligent power management and control method based on mobile visualization according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

Referring to fig. 1, the present invention is an intelligent power management and control method based on mobile visualization, including the following steps:

step S1: dividing the BIM three-dimensional model into a plurality of power grid components according to an actual power network, and inputting information of component names, working units, working time, operating personnel and operating contents into the power grid components;

step S2: the method comprises the steps that a video monitoring device collects power thread data, in a GIS three-dimensional topographic map, on-site topographic data are subjected to spatial encryption calculation through Smart3D software to generate point cloud data, and an actual topographic map of a power field is manufactured through the point cloud data;

and step S2, performing space-three encryption calculation on the on-line topographic data through Smart3D software to generate point cloud data, making an actual topographic map of the construction site through the point cloud data, and combining the actual topographic map with GIS three-dimensional topographic map data to generate a three-dimensional engineering model.

Step S3: importing the topographic map into a BIM three-dimensional model building module to be combined, and generating a three-dimensional power grid model;

step S4: the GIS power grid management and control center displays a three-dimensional power grid model, and establishes power grid progress, operating personnel and routing inspection routes for power grid construction through the three-dimensional power grid model;

in step S4, a manager receives engineering progress customization and inspection progress information in the GIS grid management and control center.

Step S5: the operating personnel work according to the engineering information and upload the functional engineering progress through the intelligent terminal;

step S6: and the manager accesses the GIS power grid management and control center through the manager terminal to know the project progress condition and adjusts the required operators, routing inspection routes and the project progress of the project.

In step S6, the GIS grid management and control center records a work trajectory, loads map information of a grid GIS patrol line area on the work trajectory, displays a route traveled by a worker on the map in real time, performs supervision and inspection on the patrol quality of the route by comparing the route travel, the patrol trajectory and the patrol duration, and determines whether the patrol period meets the requirements according to the recorded patrol date.

The GIS power grid management and control center acquires channel dangerous source point information according to the dangerous source video, the channel dangerous source point information is recorded into a system database, all channel dangerous source points are displayed on a GIS system map of a power grid of the GIS power grid management and control center in a grading manner, corresponding clickable items are configured on the corresponding channel dangerous source points, and the risk grade, the management and control measures, the information of staff performing and the specific situation of a site of the dangerous source points can be checked; dynamically grasping the current state of a danger source point by using a photographing uploading function of a visual mobile terminal; and the GIS power grid management and control center informs the corresponding power grid management and control sub-center and/or operation and maintenance with the visual mobile terminal to set on-duty personnel and mobile individual soldiers at the high-risk management and control point.

Example one

The invention relates to an intelligent electric power management and control device based on mobile visualization, which comprises a GIS power grid management and control center and a plurality of power grid management and control sub-centers; the GIS power grid management and control center is arranged in a main center area; the plurality of power grid management and control sub-centers are respectively arranged in each sub-area; the plurality of power grid control sub-centers are respectively in communication connection with the GIS power grid control center; the GIS power grid management and control center comprises a safety management and control module, a desktop management application module and a visual mobile terminal application module; the desktop management application module and the visual mobile terminal application module are respectively in communication connection with the safety control module; the visual mobile terminal application module acquires real-time field information, automatically records the time when a worker enters and leaves the field and the effective working time, and transmits the real-time information and the automatically recorded information back to the safety control module in real time; the visual mobile terminal application module is connected with the safety control module and/or the GIS power grid control center in a bidirectional communication mode; the safety control module is configured to analyze and process according to the returned information; the desktop management application module is configured to refer to the information analyzed and processed by the security management and control module.

The GIS power grid control center is configured to display multiple pictures, synchronously monitors a plurality of power grid control sub-centers in real time, and displays information transmitted back to the GIS power grid control center by the plurality of power grid control sub-centers in real time;

the GIS power grid management and control center and/or the power grid management and control sub-center are/is also provided with an integrated video platform and a three-dimensional power grid display platform, wherein the integrated video platform comprises a transformer substation fixed video, a capital construction project video, a power transmission channel danger source video, a mobile high-definition video and a mobile individual soldier video; the three-dimensional power grid display platform comprises a BIM three-dimensional model, a GIS three-dimensional topographic map, Smart3D software and a three-dimensional engineering model.

The field real-time information comprises personnel positioning, working track, shooting, navigation and personnel post arrival information, and the visual mobile terminal application module is also provided with an identity recognition function for checking the information and qualification of the operating personnel; the identity recognition function comprises a biological recognition mode or a two-dimensional code recognition mode, the biological recognition method comprises face recognition, fingerprint recognition or iris recognition, and the two-dimensional code recognition mode comprises scanning a two-dimensional code identity through a mobile terminal; the visual mobile terminal is configured to display recent photos, identification numbers, units and job qualifications according to the identification information.

The desktop management application module is also configured to be used for retrieving various types of standing book information in real time, the information analyzed and processed by the safety control module comprises field real-time information returned by the visual mobile terminal, and the transformer substation fixes videos and carries out whole-process monitoring on operation behaviors in the transformer substation covered by the videos; the capital construction project video comprises a video module for comprehensively mastering the safety management condition of the operation site of the important capital construction project; the power transmission channel dangerous source video comprises a real-time image video of a dangerous source point passed by a power transmission channel; the mobile high-definition video comprises a monitoring picture of the whole process whole elements of a key operation area and a key monitoring point by utilizing a mobile video terminal to fix a point; the mobile individual video comprises an on-site emergency repair image acquired by the mobile individual carried by the power distribution emergency repair personnel.

EXAMPLE III

The invention discloses an intelligent electric power management and control system based on mobile visualization, which comprises: a memory, and a processor coupled to the memory, the processor configured to execute the intelligent power management method of any of claims 1-5 based on instructions stored in the memory.

It should be noted that, in the above system embodiment, each included unit is only divided according to functional logic, but is not limited to the above division as long as the corresponding function can be implemented; in addition, the specific names of the functional units are only for the convenience of distinguishing from each other, and are not used for limiting the protection scope of the present invention.

In addition, those skilled in the art can understand that all or part of the steps in the method for implementing the embodiments described above can be implemented by a program to instruct related hardware, and the corresponding program can be stored in a computer readable storage medium.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (10)

1. An intelligent electric power management and control method based on mobile visualization is characterized by comprising the following steps:

step S1: dividing the BIM three-dimensional model into a plurality of power grid components according to an actual power network, and performing information input of component names, work units, operation time, operators and operation contents on the power grid components;

step S2: the method comprises the steps that a video monitoring device collects power thread data, in a GIS three-dimensional topographic map, on-site topographic data are subjected to spatial encryption calculation through Smart3D software to generate point cloud data, and an actual topographic map of a power field is manufactured through the point cloud data;

step S3: importing the topographic map into a BIM three-dimensional model building module to be combined, and generating a three-dimensional power grid model;

step S4: the GIS power grid management and control center displays a three-dimensional power grid model, and establishes power grid progress, operating personnel and routing inspection routes for power grid construction through the three-dimensional power grid model;

step S5: the operating personnel work according to the engineering information and upload the functional engineering progress through the intelligent terminal;

step S6: and the manager accesses the GIS power grid management and control center through the manager terminal to know the project progress condition and adjusts the required operators, routing inspection routes and the project progress of the project.

2. The method according to claim 1, wherein in step S2, the on-line terrain data is subjected to space-three encryption calculation through Smart3D software to generate point cloud data, an actual terrain map of a construction site is made from the point cloud data, and the actual terrain map is combined with GIS three-dimensional terrain map data to generate a three-dimensional engineering model.

3. The intelligent electric power control method based on mobile visualization of claim 1, wherein in step S4, a manager receives engineering progress customization and routing inspection progress information in a GIS grid control center.

4. The intelligent electric power management and control method based on mobile visualization is characterized in that in the step S6, a GIS power grid management and control center records a working track, loads map information of a power grid GIS patrol line area on the working track, displays a line passed by a worker on the map in real time, carries out supervision and inspection on line patrol quality by comparing a line path, a patrol track and patrol duration, and judges whether a patrol period meets requirements according to recorded patrol dates.

5. The intelligent electric power management and control method based on mobile visualization as claimed in claim 4, wherein the GIS power grid management and control center obtains channel dangerous source point information according to the dangerous source video, inputs the channel dangerous source point information into the system database, displays all channel dangerous source points on a GIS system map of the GIS power grid management and control center power grid in a grading manner, configures corresponding clickable entries on the corresponding channel dangerous source points, and can check the risk level, management and control measures, information of staff performing and specific situations of the dangerous source points; dynamically grasping the current state of a danger source point by using a photographing uploading function of a visual mobile terminal; and the GIS power grid management and control center informs corresponding power grid management and control sub-centers and/or operation and maintenance with visual mobile terminals to set on-duty personnel and mobile individual soldiers at high-risk management and control points.

6. An intelligent electric power management and control device based on mobile visualization is characterized by comprising a GIS electric power grid management and control center and a plurality of electric power grid management and control sub-centers;

the GIS power grid management and control center is arranged in a main center area; the power grid management and control sub-centers are respectively arranged in each sub-area;

the power grid control sub-centers are respectively in communication connection with a GIS power grid control center;

the GIS power grid management and control center comprises a safety management and control module, a desktop management application module and a visual mobile terminal application module; the desktop management application module and the visual mobile terminal application module are respectively in communication connection with the safety control module; the visual mobile terminal application module acquires field real-time information, automatically records the time when a worker enters and leaves the field and the effective working time, and transmits the real-time information and the automatically recorded information back to the safety control module in real time; the visual mobile terminal application module is connected with the safety control module and/or the GIS power grid control center in a bidirectional communication mode; the safety management and control module is configured to analyze and process the returned information; the desktop management application module is configured to refer to the information analyzed and processed by the security management and control module.

7. The intelligent electric power management and control device based on mobile visualization as claimed in claim 6, wherein the GIS power grid management and control center is configured to display multiple images, monitor multiple power grid management and control sub-centers synchronously in real time, and display information transmitted back to the GIS power grid management and control center by the multiple power grid management and control sub-centers in real time;

the GIS power grid management and control center and/or the power grid management and control sub-center are/is further provided with an integrated video platform and a three-dimensional power grid display platform, wherein the integrated video platform comprises a transformer substation fixed video, a capital construction project video, a power transmission channel hazard source video, a mobile high-definition video and a mobile individual soldier video; the three-dimensional power grid display platform comprises a BIM three-dimensional model, a GIS three-dimensional topographic map, Smart3D software and a three-dimensional engineering model.

8. The intelligent electric power management and control device based on mobile visualization as claimed in claim 6, wherein the real-time information on site includes personnel positioning, work track, shooting, navigation, personnel arrival post information, and the visual mobile terminal application module is further configured with an identity recognition function to check information and qualification of operators; the identity recognition function comprises a biological recognition mode or a two-dimension code recognition mode, the biological recognition method comprises face recognition, fingerprint recognition or iris recognition, and the two-dimension code recognition mode comprises scanning a two-dimension code identity through a mobile terminal; the visual mobile terminal is configured to display recent photos, identity card numbers, units and job qualifications according to the identification information.

9. The intelligent power management and control device based on mobile visualization as claimed in claim 1, wherein the desktop management application module is further configured to retrieve various types of machine account information in real time, the information analyzed and processed by the security management and control module includes the on-site real-time information returned by the visual mobile terminal, and the substation fixed video includes a whole-course monitoring of operation behavior in the substation covered by the video; the infrastructure construction video comprises a video acquisition module, a video display module and a video display module, wherein the video acquisition module is used for acquiring the video of the infrastructure construction; the power transmission channel dangerous source video comprises a dangerous source point real-time image video passed by a power transmission channel; the mobile high-definition video comprises a monitoring picture of the whole process whole elements of a key operation area and a key monitoring point by using a mobile video terminal for fixed point; the mobile individual video comprises an on-site emergency repair image acquired by the mobile individual carried by a power distribution emergency repair personnel.

10. The utility model provides an intelligent electric power management and control system based on remove visual, which characterized in that includes: a memory, and a processor coupled to the memory, the processor configured to perform the intelligent power management method of any of claims 1-5 based on instructions stored in the memory.

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